Punnett Squares Monohybrid, Di-hybrid and Sex-Linked Crosses Integrated Science 2 Name: Period: Background Original parents in any given set of crosses are called the parent generation or parents (P1), while the two subsequent generations are denoted with the symbols F1 and F2 (a cross of two F1 individuals). Punnett Squares are one method for visually demonstrating the probability of offspring genotypes and offspring phenotypes. Example 1: (Monohybrid Cross) For humans, brown eyes are dominant (B) over blue eyes (b). A heterozygous brown-eyed man marries a heterozygous brown-eyed. What are the possible genotypes and phenotypes of the offspring? Alleles: B = brown eyes b = blue eyes Parents: Male = Bb Fe = Bb B b B BB Bb b Bb bb The separation of the parental genotype from Bb and Bb on either side of the Punnett square represents meiosis. Each single letter represents a possible haploid condition in either an egg or a sperm, whereas the double letters represent a diploid condition. Rules 1. Male alleles on top of punnett square - alleles on the left 2. Dominant allele (upper case) written before recessive allele (lower case) Record the probabilities for genotypes and phenotypes of the offspring (F2 generation) as percents and ratios. Use the following format to write genotypic ratios: homozygous dominant: heterozygous: homozygous recessive. Use the following format to write phenotypic ratios: dominant phenotype: recessive phenotype. Percents 25% BB 50% Bb 25% bb Percent 75% brown eyes 25% blue eyes Monohybrid Practice Problems 1. Cystic fibrosis is a recessive genetic disorder. Ron is homozygous dominant (FF) and Nancy is a carrier (Ff) of cystic fibrosis. Use a Punnett square to predict the probability that one of their children will have cystic fibrosis? Show all work and box your final answer. Percents/Ratio 2. Patty is homozygous dominant for freckles (SS), while Charlie is homozygous for no freckles (ss). Draw a Punnett square predicting the probability if their children will have freckles.
3. Eddie has brown eyes, while Cybil has blue. If brown eyes are known to be dominant, and blue eyes are recessive, use a Punnett square to predict their offspring. Assume Eddie doesn t carry a recessive allele. 4. Larry and Lola have achondroplasia, a form of dwarfism. Both are heterozygotes. Their son, Big Bob, is 7 1. Use a Punnett square to show how Big Bob got his genotype. 5. Woody Guthrie, who wrote This Land is Your Land, was heterozygous for Huntington s disease (Hh). His wife was homozygous recessive and perfectly normal (hh). Huntington s disease is caused by a latent dominant gene, meaning that it is not phenotypically (physically) expressed until later in life. Dominant disease genes are expressed in homozygous dominant and heterozygous people (HH or Hh). Draw a Punnett square for Woody ad his wife. 2
Example 2: (Sex-Linked Cross) The normal condition is a result of the chromosomal pairing XX, while the normal condition is XY. Certain genes located on the X chromosome, not associated with sex characteristics, cause sex-linked recessive traits. As a result, s must receive two recessive alleles to exhibit any particular characteristic associated with one of these genes, while s need only receive one allele. The reason for the anomaly is that the Y chromosome does not carry versions of the same genes as the X chromosome. Consequently, only s can be true heterozygotes (one dominant allele and one recessive allele). Ø Hemophilia is a rare heredity human disease of the blood. The blood of individuals with this condition does not clot properly. Without the capacity for blood clotting, even a small cut can be lethal. A Hemophiliac marries a Fe who is a carrier, but who does not have the disorder. What are the probabilities of these parents giving birth to sons being hemophiliacs, and to daughters being hemophiliacs? Use (H) for the normal nonhemophiliac allele and (h) for the hemophilia allele. H = Non-hemophiliac h = hemophiliac Male = X h Y Fe = X H X h X H X h X h X H X h X h X h Y X H Y X h Y Recall: Half of all sperm (haploid) carry the X chromosome and half carry the Y chromosome, while 100% of all eggs (haploid) carry only the X chromosome. X H Y ½ - 50% X h Y ½ - 50% X H X h - ½ - 50% X H X H - ½ - 50% Hemophiliac ½ - 50% Non-Hemophiliac ½ - 50% Hemophiliac ½ - 50% Non-Hemophiliac ½ - 50% Sex-Linked Practice Problems 1. In humans colorblindness (b) is an example of a sex-linked recessive trait. In this problem, a with colorblindness marries a who is not colorblind but carries the (b) allele. Using a Punnett square, determine the genotypic and phenotypic probabilities for their potential offspring. 2. In fruit flies red eye color (R) is dominant to white eyes (r). In a cross between two flies, 50% of the and 50% of the offspring had red eyes. The other half of the s and s had white eyes. What are the phenotypes, and genotypes, of the parents? 3
Example 3: (Di-hybrid Cross) Di-hybrid crosses use Punnett squares to distribute parental alleles from two genes into gametes (eggs and sperm or pollen and ovum) as would be predicted by meiosis. Ø In garden peas, tallness (T) is dominant to shortness (t) and axillary flowers (A) are dominant to terminal flowers (a). What are the expected ratios for the genotypes and phenotypes of the offspring if a heterozygous tall, heterozygous axillary plant is crossed with a heterozygous tall, terminal plant? T - Tall t = short A axillary flowers a terminal flowers Male - TtAa Fe - Ttaa Ta Ta ta TA Ta ta ta TTAa TTaa TtAa Ttaa TTAa TTaa TtAa Ttaa TtAa Ttaa ttaa ttaa Guidelines for Di-hybrid Punnett Squares 1. Di-hybrid crosses - use the FOIL method from the binomial distributive property of multiplication. ex: gamete distribution for AaBb: AB Ab ab ab 2. Dominant alleles (upper case) are written before recessive allele (lower case) - except for distributing alleles in di-hybrid crosses. ta TtAa Ttaa ttaa ttaa 3. Alleles of the same gene always stay together (important in di-hybrid problems) TTAa 2/16 TTaa 2/16 TtAa 4/16 Ttaa 4/16 ttaa 2/16 ttaa 2/16 Tall Axial 6/16 Tall terminal 6/16 short Axial 2/16 short terminal 2/16 Di-hybrid Practice Problems 1. In horses, the coat color black is dominant (B) over chestnut (b). The trotting gait is dominant (T) over the pacing gait (t). If a homozygous black pacer is mated to a homozygous chestnut, heterozygous trotter, what will be the ratios for genotype and phenotype of the F1 generation? 4
2. In rabbits, the coat color black dominant (B) over brown (b). Short hair is dominant (S) over long (s). In a cross between a heterozygous black heterozygous short-haired and a homozygous black homozygous long-haired, what would be the ratios for genotype and phenotype of the F1 generation? 3. Imagine that a couple is planning to have children. The is heterozygous for Huntington s disease and homozygous dominant for Tay-Sachs. The is homozygous recessive for Huntington s disease and heterozygous for Tay-Sachs. The couple is curious about the possibility and probability of their offspring inheriting Tay-Sachs and/or Huntington s. For humans, Huntington s disease is dominant (H) over the normal condition (h), and the normal condition is dominant (T) over Tay-Sachs (t). Complete a Punnett square for this cross and record the probabilities for genotypes and phenotypes of the offspring as ratios. 5